Enteroviruses induce fundamental changes in cell morphology. The molecular mechanisms of these changes and the ensuing cellular release of viral progeny are mostly unknown. It is generally assumed that enteroviruses, like many other nonenveloped viruses, require cell lysis for infection spread. For example, the release of coxsackievirus B3 (CVB3) virions from infected cells depends on enhancement of cell membrane permeability caused by viral components (53). However, the lytic escape of enteroviruses can also be complemented by nonlytic virus release, as shown for poliovirus using an autophagosomal pathway (27,49). Moreover, direct cell-to-cell spread has been suspected to occur with poliovirus in the central nervous system (40). Nonlytic transmission might be particularly important in persistent infection by enteroviruses and various other picornaviruses, such as Theiler's murine encephalomyelitis virus, foot-and-mouth disease virus, and Nora virus, a picornalike virus (17,25,41,58). Such transmission could be envisioned to provide an important advantage for the virus by helping it to hide inside the cell to avoid immune defense by neutralizing antibodies.CVB3, a nonenveloped RNA virus, is a member of the genus Enterovirus of the family Picornaviridae. It causes myocarditis and pancreatitis in newborns and may play a role in some chronic diseases, such as dilated cardiomyopathy and type 1 diabetes (4,5,26,30,42). The icosahedral viral capsids are 29 nm in diameter and consist of the structural proteins VP1, VP2, VP3, and VP4. The 7,400-nucleotide viral RNA genome is polyadenylated, single stranded, and positive sense (39), encoding 11 proteins from a single open reading frame. CVBs invade the intestinal epithelium and bind to the major cellular receptor, a glycoprotein termed the coxsackie-adenovirus receptor (CAR) (12,15,16,44,61). CVBs enter the cytoplasm by a caveolin-dependent endocytic pathway, with similarities to macropinocytosis (15,16,35). CVB3 replicates on the outer surfaces of virus-induced membranous vesicles (8,12,20,61). Viral assembly is a multistep process, in which cleavage of viral protein (VP0) yields mature capsid proteins VP4 and VP2, which, together with VP1 and VP3, form the mature capsid (6). Later in infection CVB3 induces apoptosis through caspase activation in cultured cells (11,36,60).In this study, alterations in the cellular architecture and intracellular distribution of CVB3 proteins were studied in infected cells. The cells were either inoculated with the virus or transfected with the viral RNA by lipofection or cytoplasmic microinjection. Lipofection of viral RNA was used to synchronize viral infection, and comicroinjection of the viral RNA and fluorescent dextran were used to mark the transfected cells (7,23,24,33,38). Living as well as fixed cells were examined by electron microscopy (EM), wide-field and confocal microscopy, and flow cytometry. CVB3 RNA was shown to induce extensive cellular changes, including extended protrusions connecting adjacent cells. These studies
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